How Connectivity Supports Automated Vehicle OperationsAutomated Vehicles Offers Transformative...
Transcript of How Connectivity Supports Automated Vehicle OperationsAutomated Vehicles Offers Transformative...
U.S. Department of Transportation Federal Highway Administration
How Connectivity Supports Automated Vehicle Operations
U.S. Department of Transportation Federal Highway Administration
Automated Vehicles Offers Transformative Safety Benefits for Transportation
Automated Vehicle Technologies Can Reduce Vehicle Crashes Source: NHTSA
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94% 5.6%
Increase in Fatalities from 2015 to 2016
Percentage of Fatal Crashes Involving Human Choice or Error
U.S. Department of Transportation Federal Highway Administration
Automated Vehicles Could Have Significant Impacts on Mobility
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The fast-rising VMT is making things worse
INRIX US Traffic Hotspot Study 2017
• New York had more traffic hotspots than any other city, costing drivers $64 billion by 2026
• Los Angeles has 10 of the 25 worst traffic hotspots in America, costing L.A. drivers an estimated $91 billion over the next 10 years
• I-95 in Washington D.C. was the worst overall traffic hotspot, which caused 1,384 traffic jams, stretched 6.4 miles and lasted 33 minutes on average
INRIX Traffic Data 2016
U.S. Department of Transportation Federal Highway Administration
Automated Vehicles Introduce Both Potential Benefits and Challenges
Potential Benefits
Reduction in vehicle crashes
Improved mobility for elderly,
disabled, & those unable to drive
Improved convenience of travel
Potential Challenges
Could lead to more or less efficient
operations of the highway system
Increases in VMT and congestion
Land use implications, sprawl
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Automated Vehicles Still Face Technical Challenges
Onboard sensors (e.g., cameras, lidar) are strictly line-of-sight • AVs have difficulty detecting vehicles, objects or incidents far ahead, or hidden behind other
objects
• AVs may not be able to execute crash avoidance maneuvers quickly enough, for example, at
blind intersections, for sudden braking events several cars ahead in traffic, etc.
Accurate interpretation of sensor data may be challenging • AVs may have degraded sensor performance due to weather conditions (e.g. fog, snow,
heavy rain)
• AVs may not be able to interpret signage/signals (e.g. complex intersections, work zones)
Vehicles that cannot communicate cannot cooperate • It is difficult for vehicles to cooperate with other vehicles based only on sensor detection
• AVs that are not able to cooperate effectively with each other – could cause increased
congestion, less harmonized traffic flow, less efficient transportation system performance
U.S. Department of Transportation Federal Highway Administration
What is Connectivity?
Vehicle-to-vehicle and vehicle-to-infrastructure communications enable the vehicle to exchange data with nearby vehicles and roadside infrastructure
Different communications technologies (e.g. LTE, DSRC, Satellite) are utilized depending on the performance requirements of the applications
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Connectivity Offers Potential Solutions
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Image Source: https://blog.caranddriver.com/vehicle-to-vehicle-communications-are-the-next-big-thing-in-auto-safety/
More accurate signal phase and timing (SPaT) information from traffic signals
More accurate detection of nearby vehicles, pedestrians, objects
More cooperation between vehicles for smoother traffic flow
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Connectivity Can Provide Additional Data
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Vehicle slowing 300 feet ahead.
Objected detected .2 miles ahead, traffic slowing.
On-board sensors only collect data within their line-of-sight. Connectivity can extend upon and provide
additional information.
Non-Connected Automated Vehicles
Connected Automation
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Communication between vehicles or between vehicles and the
infrastructure could simplify interactions where human deduction
is currently used.
You first!
Thanks!
When can we go?
Automated Vehicles That Communicate Can Cooperate
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Cooperative Automation •Uses vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) connectivity.
•Enhances the safety and efficiency of Automated Driving Systems.
•Provides greater situational awareness and efficiency.
Connectivity Enables Cooperative Automation
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Cooperative Automated Light Vehicle and Truck
Platooning
Signalized Intersection
Approach and Departure
Automated Traffic Flow Optimization
Lane Change/Merge
Operations
Examples of Cooperative Automation
U.S. Department of Transportation Federal Highway Administration
Light Vehicle and Truck Platooning Application
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• Platoons can operate cooperatively on highways to increase efficiency and
smooth traffic flow
• Reduced drag improves fuel efficiency
U.S. Department of Transportation Federal Highway Administration
Signalized Intersection Approach and Departure
Full Video https://www.youtube.com/watch?v=I753gGLJAcg
Allows vehicles to approach and
depart an intersection in an
coordinated manner
Increases efficiency and decreases
fuel consumption by enabling V2I
communications with intersections
on the roadway.
Signalized Intersection Approach &
Departure project results:
□ 22% fuel economy improvement with
partial automation
□ Time saved from reducing start-up
loss
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Lane Change/Merge and Freeway Merge Applications
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• Involves negotiation with nearby vehicles to create a gap for safe merging.
• Can improve highway operations and smooth traffic flow
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Cooperative Automation
Automated vehicles will need connected vehicle technology
Connectivity
Situational Awareness
Multi-Sensor Integration
Cybersecurity
Interoperability
Connectivity Enhances Automation
U.S. Department of Transportation Federal Highway Administration
For More Information:
Kate Hartman Chief – Research, Evaluation, and Program Management Intelligent Transportation Systems Joint Program Office (ITS JPO) U.S. Department of Transportation [email protected] Brian Cronin, P.E. Director – Office of Operations R&D Federal Highway Administration U.S. Department of Transportation [email protected]
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